AMBRE is part of a collection of tools devoted to the evaluation of Mellin-Barnes integrals collected at HEPFORGE.","description_rendered":"

AMBRE is part of a collection of tools devoted to the evaluation of Mellin-Barnes integrals collected at HEPFORGE.","examples":null,"examples_rendered":null,"has_examples":"0","timestamp":"2015-09-27 00:32:22","keywords":["physics","hep"]},{"id":"270","name":"Analytica","url":"https:\/\/github.com\/langit\/analytica","paclet_server_url":"","latest_release":null,"description":"

A theorem prover that can be used to prove nontrivial theorems.","description_rendered":"

A theorem prover that can be used to prove nontrivial theorems.","examples":null,"examples_rendered":null,"has_examples":"0","timestamp":"2016-10-31 18:05:26","keywords":["symbolic"]},{"id":"115","name":"ANT \u2013 ANalytic loopTools","url":"http:\/\/ant.hepforge.org\/","paclet_server_url":"","latest_release":null,"description":"

ANT - ANalytic loopTools - is a Mathematica package implementing all Passarino-Veltman functions up to boxes as defined by FormCalc and LoopTools in the limit of vanishing external momenta. Additionally, it includes all first derivatives of B0, B1, C0, C1, C2 as well as C00 in the limit of vanishing external momenta.","description_rendered":"

ANT - ANalytic loopTools - is a Mathematica package implementing all Passarino-Veltman functions up to boxes as defined by FormCalc and LoopTools in the limit of vanishing external momenta. Additionally, it includes all first derivatives of B0, B1, C0, C1, C2 as well as C00 in the limit of vanishing external momenta.","examples":null,"examples_rendered":null,"has_examples":"0","timestamp":"2015-09-27 00:32:35","keywords":["physics","hep"]},{"id":"148","name":"ApplicationMaker","url":"https:\/\/github.com\/jmlopez-rod\/ApplicationMaker","paclet_server_url":"","latest_release":null,"description":"

This Mathematica package facilitates the integration of notebooks to the Documentation Center, without needing to use the Wolfram Workbench.","description_rendered":"

This Mathematica package facilitates the integration of notebooks to the Documentation Center, without needing to use the Wolfram Workbench.","examples":null,"examples_rendered":null,"has_examples":"0","timestamp":"2015-09-30 18:07:29","keywords":["documentation","packages","development"]},{"id":"106","name":"AtomicDensityMatrix","url":"http:\/\/rochesterscientific.com\/ADM\/","paclet_server_url":"","latest_release":null,"description":"

A package for Mathematica 6 and later that facilitates analytic and numerical density-matrix calculations in atomic and related systems.","description_rendered":"

A package for Mathematica 6 and later that facilitates analytic and numerical density-matrix calculations in atomic and related systems.","examples":null,"examples_rendered":null,"has_examples":"0","timestamp":"2015-09-21 01:44:08","keywords":["quantum mechanics","atomic physics","density matrix"]},{"id":"220","name":"AVZ_Package","url":"https:\/\/yadi.sk\/d\/-eOJzyyCr3WTw","paclet_server_url":"","latest_release":null,"description":"

The package contains more than 820 tools which eliminate restrictions of a number of standard tools of the Mathematica system, and expand its software with new tools. In this context, the package can serve as a certain additional tool of modular programming, especially useful in the numerous applications where certain nonstandard evaluations have to accompany programming. At that, tools presented in the given package have a direct relationship to certain principal questions of procedure\u2013functional programming in the Mathematica system, not only for the decision of applied problems, but, first of all, for creation of software extending frequently used facilities of the system and\/or eliminating their defects or extending the system with new facilities. The software presented in this package contains a series of rather useful and effective receptions of programming in the Mathematica system, and extends its software which allows in the system to programme the problems of various purpose more simply and effectively. The additional tools composing the above package embrace the next sections of the Mathematica system, namely:\n

\n

additional tools in interactive mode of the Mathematica system\n

additional tools of processing of expressions in the Mathematica system\n

additional tools of processing of symbols and strings in the Mathematica\n

additional tools of processing of sequences and lists in the Mathematica\n

definition of the user functions and pure functions in the Mathematica software\n

tools of testing of procedures and functions in the Mathematica software\n

headings of procedures and functions in the Mathematica software\n

formal arguments of procedures and functions\n

local variables of modules and blocks; tools of their processing\n

global variables of modules and blocks; tools of their processing\n

attributes, options and values by default for arguments of the user blocks, functions and modules; additional tools of their processing\n

some useful additional tools for processing of blocks, functions and modules\n

additional tools of the processing of internal Mathematica datafiles\n

additional tools of the processing of external Mathematica datafiles\n

additional tools of the processing of attributes of directories and datafiles\n

additional and some special tools of processing of datafiles and directories\n

additional tools of operating with packages and contexts ascribed to them.\n\n

All tools of the package are provided with usages, whereas the detailed descriptions of the tools along with typical examples and features of their use can be found in book "Aladjev V.Z., Vaganov V.A. Toolbox for the Mathematica programmers.- USA: Seattle, CreateSpace, 2016, ISBN 9781532748837, 630 p.". \n

The package, is mostly for people who want the more deep understanding in the Mathematica programming, and particularly those the Mathematica users who would like to make a transition from a user to a programmer, or perhaps those who already have some limited experience in the Mathematica programming but want to improve their possibilities in the system. The expert Mathematica programmers will probably find an useful information too.\n

The archive contains five datafiles, namely: AVZ_Package.cdf, AVZ_Package.mx, AVZ_Package.m, AVZ_Package.nb, Archive.pdf. In particular, for perusal of the package it is possible to use or file AVZ_Package.cdf with CDF Player, or files AVZ_Package.m, Archive.pdf with any word processor, or Acrobat Reader. Similar approach allows to satisfy the user on different operational platforms.","description_rendered":"

The package contains more than 820 tools which eliminate restrictions of a number of standard tools of the Mathematica system, and expand its software with new tools. In this context, the package can serve as a certain additional tool of modular programming, especially useful in the numerous applications where certain nonstandard evaluations have to accompany programming. At that, tools presented in the given package have a direct relationship to certain principal questions of procedure\u2013functional programming in the Mathematica system, not only for the decision of applied problems, but, first of all, for creation of software extending frequently used facilities of the system and\/or eliminating their defects or extending the system with new facilities. The software presented in this package contains a series of rather useful and effective receptions of programming in the Mathematica system, and extends its software which allows in the system to programme the problems of various purpose more simply and effectively. The additional tools composing the above package embrace the next sections of the Mathematica system, namely:\n

\n

additional tools in interactive mode of the Mathematica system\n

additional tools of processing of expressions in the Mathematica system\n

additional tools of processing of symbols and strings in the Mathematica\n

additional tools of processing of sequences and lists in the Mathematica\n

definition of the user functions and pure functions in the Mathematica software\n

tools of testing of procedures and functions in the Mathematica software\n

headings of procedures and functions in the Mathematica software\n

formal arguments of procedures and functions\n

local variables of modules and blocks; tools of their processing\n

global variables of modules and blocks; tools of their processing\n

attributes, options and values by default for arguments of the user blocks, functions and modules; additional tools of their processing\n

some useful additional tools for processing of blocks, functions and modules\n

additional tools of the processing of internal Mathematica datafiles\n

additional tools of the processing of external Mathematica datafiles\n

additional tools of the processing of attributes of directories and datafiles\n

additional and some special tools of processing of datafiles and directories\n

additional tools of operating with packages and contexts ascribed to them.\n\n

All tools of the package are provided with usages, whereas the detailed descriptions of the tools along with typical examples and features of their use can be found in book "Aladjev V.Z., Vaganov V.A. Toolbox for the Mathematica programmers.- USA: Seattle, CreateSpace, 2016, ISBN 9781532748837, 630 p.". \n

The package, is mostly for people who want the more deep understanding in the Mathematica programming, and particularly those the Mathematica users who would like to make a transition from a user to a programmer, or perhaps those who already have some limited experience in the Mathematica programming but want to improve their possibilities in the system. The expert Mathematica programmers will probably find an useful information too.\n

The archive contains five datafiles, namely: AVZ_Package.cdf, AVZ_Package.mx, AVZ_Package.m, AVZ_Package.nb, Archive.pdf. In particular, for perusal of the package it is possible to use or file AVZ_Package.cdf with CDF Player, or files AVZ_Package.m, Archive.pdf with any word processor, or Acrobat Reader. Similar approach allows to satisfy the user on different operational platforms.","examples":null,"examples_rendered":null,"has_examples":"0","timestamp":"2016-05-31 16:25:53","keywords":["programming","module","function","procedure","package"]},{"id":"345","name":"BioFormatsLink","url":"https:\/\/github.com\/WolframResearch\/BioFormatsLink","paclet_server_url":"","latest_release":"https:\/\/api.github.com\/repos\/WolframResearch\/BioFormatsLink\/zipball\/v1.0","description":"